echo bearing

简明释义

回波方位

英英释义

例句

1.We need to calibrate the echo bearing 回声承载 to improve accuracy in our measurements.

我们需要校准回声承载以提高测量的准确性。

2.The engineer explained how the echo bearing 回声承载 plays a crucial role in navigation systems.

工程师解释了回声承载在导航系统中起到的重要作用。

3.The technician adjusted the system to ensure the echo bearing 回声承载 was functioning correctly.

技术员调整系统以确保回声承载正常工作。

4.During the test, we monitored the echo bearing 回声承载 to assess the performance of the equipment.

在测试过程中，我们监测了回声承载以评估设备的性能。

5.The echo bearing 回声承载 in the sonar system helps in detecting underwater objects.

声纳系统中的回声承载有助于探测水下物体。

作文

In the world of navigation and communication, the term echo bearing plays a crucial role. It refers to the angle or direction from which a signal is received after it has bounced off a surface, such as water or land. This concept is particularly important in maritime and aviation contexts, where precise location and orientation are essential for safety and efficiency. Understanding echo bearing can significantly enhance our ability to navigate through complex environments. For instance, in maritime navigation, ships often use sonar technology to detect underwater obstacles. The sonar device emits sound waves that travel through the water, bounce off objects, and return to the source. By calculating the time it takes for the echoes to return, navigators can determine the distance to the object and its echo bearing, which indicates the direction of the obstacle relative to the ship. This information is vital for avoiding collisions and ensuring safe passage through busy shipping lanes. Similarly, in aviation, pilots rely on radar systems that utilize echo bearing to track other aircraft and weather patterns. Radar sends out radio waves that reflect off objects in the sky, providing pilots with real-time data about their surroundings. By analyzing the echo bearing of these signals, pilots can make informed decisions about altitude changes, course adjustments, and potential hazards. The importance of echo bearing extends beyond navigation; it also plays a significant role in various scientific fields. For example, researchers studying geological formations use seismic waves to understand the Earth's structure. When an earthquake occurs, seismic waves travel through the Earth, reflecting off different layers and returning to the surface. Scientists analyze the echo bearing of these waves to gain insights into the composition and behavior of the Earth's crust. This information is crucial for assessing earthquake risks and developing effective response strategies. Moreover, echo bearing is not limited to physical navigation; it can also be applied metaphorically in our daily lives. Just as navigators rely on echo bearings to guide them through challenging environments, we can use the concept of echo bearing to reflect on our personal journeys. By considering the feedback we receive from others and the 'echoes' of our actions, we can gain valuable insights into our choices and behaviors. This reflective practice allows us to adjust our paths and make better decisions moving forward. In conclusion, the concept of echo bearing is fundamental in various fields, from navigation to scientific research and even personal reflection. By understanding this term and its applications, we can enhance our ability to navigate both the physical world and our individual lives. Embracing the idea of echo bearing encourages us to listen to the echoes around us, learn from them, and use that knowledge to steer our course towards success and fulfillment.

在导航和通信的世界中，术语echo bearing（回声方位）扮演着至关重要的角色。它指的是信号在反弹到一个表面（如水面或陆地）后接收到的角度或方向。这个概念在海事和航空环境中尤为重要，因为精确的位置和方向对于安全和效率至关重要。理解echo bearing可以显著增强我们在复杂环境中导航的能力。例如，在海上导航中，船只通常使用声纳技术来探测水下障碍物。声纳设备发出声波，这些声波通过水面传播，反弹到物体上并返回源头。通过计算回声返回所需的时间，导航员可以确定物体的距离及其echo bearing，这表示障碍物相对于船只的方向。这些信息对于避免碰撞和确保安全穿越繁忙的航道至关重要。同样，在航空领域，飞行员依靠雷达系统利用echo bearing来跟踪其他飞机和天气模式。雷达发出无线电波，这些波在天空中的物体上反射，为飞行员提供实时的周围环境数据。通过分析这些信号的echo bearing，飞行员可以就高度变化、航向调整和潜在危险做出明智的决定。echo bearing的重要性不仅限于导航；它在各种科学领域也扮演着重要角色。例如，研究地质构造的研究人员利用地震波来了解地球的结构。当地震发生时，地震波穿过地球，反射不同的层并返回地表。科学家们分析这些波的echo bearing以获取关于地壳成分和行为的见解。这些信息对于评估地震风险和制定有效的应对策略至关重要。此外，echo bearing不仅限于物理导航；它还可以在我们的日常生活中隐喻性地应用。正如导航员依赖回声方位来引导他们穿越挑战性环境一样，我们也可以利用echo bearing的概念来反思个人旅程。通过考虑我们从他人那里收到的反馈和我们行为的“回声”，我们可以获得关于选择和行为的宝贵见解。这种反思实践使我们能够调整我们的路径，并在前进过程中做出更好的决定。总之，echo bearing的概念在各个领域都是基础，从导航到科学研究甚至个人反思。通过理解这个术语及其应用，我们可以增强在物理世界和个人生活中导航的能力。接受echo bearing的理念鼓励我们倾听周围的回声，从中学习，并利用这些知识来引导我们的成功和满足之路。